JP4463542B2 - Optical disc drive - Google Patents

Description

  The present invention relates to an optical disk drive, and more particularly to an optical disk drive connected to a computer.

  In general, an optical disk drive is a device for recording / reproducing information on / from a recording surface comprising concentric tracks on an optical disk such as a CD or a DVD, and slides in a radial direction of the optical disk on the recording surface of a rotating optical disk The information is recorded / reproduced by emitting a beam from the optical pickup. In particular, the slim type optical disk drive is very thin because it is used in a portable computer such as a notebook computer.

FIG. 1 is a perspective view showing a conventional slim type optical disk drive.
Referring to FIG. 1, the tray 20 is installed on the lower case 10 so as to slide. The tray 20 is provided with a spindle motor 30 that rotates the optical disk D, and an optical pickup 50 that accesses the optical disk D and records / reproduces information while sliding in the radial direction of the rotated optical disk D. A main control board 60 for controlling the operation of the optical disk drive is installed in the lower case 10 and is connected to an optical pickup 50 and a spindle motor 30 installed on the tray 20 by an FPC (flexible printed circuit) 70. The FPC 70 is smoothly folded or extended in the space between the tray 20 and the lower case 10 as the tray 20 slides. The main control board 60 is provided with a connector 80 for connection with a portable computer.

  As important factors affecting the thickness of the slim type optical disk drive, the thickness of the drive parts including the optical pickup 50 mounted on the tray 20 and the main control board for controlling such drive parts Thickness is mentioned. In particular, since the main control board is mounted between the tray and the lower case, if the thickness of the electrical / electronic components mounted on the upper and lower surfaces of the main control board increases, Bring about an increase.

  The present invention has been created to solve the above-described problems, and has an object to provide an optical disc drive that can be adapted to slim portable computers by separating a control board and a drive unit. .

  In order to achieve the above object, an optical disk drive of the present invention includes a spindle motor that rotates an optical disk, an optical pickup that accesses the optical disk, a drive unit that includes a connection board connected to a computer, and the drive unit. And a control board connected to the connection board through the interface device of the computer to control the drive unit.

  According to the optical disk drive of the present invention, the slim type optical disk drive can be thinned by separating the control board and the drive unit, and the thin portable computer to which the slim type optical disk drive is attached can also be accommodated. Moreover, it can be used not only for portable computers but also for desktop computers.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.
FIG. 2 is a schematic perspective view showing an embodiment of an optical disk drive according to the present invention, and FIG. 3 is a perspective view showing the drive unit shown in FIG. 2 in detail.

  Referring to FIG. 2, the portable computer 100 is provided with a mounting unit 120 in which a slim type optical disk drive is mounted and at least one PCMCIA slot 110 in which a PCMCIA (personal computer memory card international association) card is mounted. The optical disk drive of the present embodiment includes a drive unit 200 manufactured in a slim shape so as to be mounted on the mounting unit 120, and a control board 300 that controls the drive unit 200 and is mounted in the PCMCIA slot 110. And including.

  Referring to FIG. 3, the driving unit 200 includes a spindle motor 230 and an optical pickup 250. The external dimensions of the driving unit 200 are manufactured in conformity with a standard so as to be mounted on a portable computer. The spindle motor 230 and the optical pickup 250 are installed on a tray 220 installed on the lower case 210 so as to slide in the direction of arrow A in the drawing. The tray 220 is further provided with a drive motor 240 that slides the optical pickup 250 in the radial direction of the optical disc D. The spindle motor 230 rotates the optical disc D, and a turntable 231 is installed on the rotating shaft. The optical disk D is placed on the turntable 231. The optical pickup 250 is driven by the drive motor 240 to access the recording surface of the optical disc D while sliding in the radial direction of the optical disc D to record / reproduce information.

  The driving unit 200 further includes a connection board 260. The connection board 260 is connected to control elements provided in the drive unit 200 such as the spindle motor 230, the optical pickup 250, and the drive motor 240 through the FPC 270. The connection board 260 includes a connector 261 that is connected to the portable computer 100. The drive unit 200 is electrically connected to the control board 300 and the portable computer 100 through the connection board 260. The connection board 260 can be made smaller than the conventional control board (60 in FIG. 1) to provide only a minimum function for connecting the driving unit 200 to the control board 300 and the portable computer 100.

  The control board 300 controls the drive unit 200 and is not built in the drive unit 200 but is mounted on an interface device such as a USB (Universal Serial Bus) port or a PCMCIA slot of the portable computer 100. The control board 300 of this embodiment is manufactured in a PCMCIA card type so as to be installed in the PCMCIA slot.

  The PCMCIA card is standardized by the International Association of Computer Memory Cards, which is a computer manufacturer association that sets standards for credit card-sized adapter cards used in notebook personal computers, and three types are defined. First, Type I is 3.3mm thick and is mainly used for RAM and ROM expansion cards. Type II is 5.5mm thick and is often used for modems. Type III has a maximum thickness of 10.5mm for small hard disks. used.

  The control board 300 includes a function of controlling the drive unit 200, and can be manufactured in an appropriate type among type I, type II, and type III depending on how thin the thickness is. The control board 300 is connected to the drive unit 200 by being installed in the PCMCIA slot 210 of the portable computer 100 and controls the operation of the drive unit 200.

  If the driving unit 200 and the control board 300 are installed in the mounting unit 120 and the PCMCIA slot 110, respectively, the driving unit 200 and the control board 300 are interconnected through a control bus and a data bus provided in the portable computer 100. The drive unit 200 and the control board 300 may be interconnected by a separate connecting means such as a cable (not shown) provided in the computer 100.

  With this configuration, when the control board 300 is installed in the PCMCIA slot 110, the CPU (not shown) of the portable computer 100 recognizes this as an optical disk drive. When a recording / reproducing signal is input from the CPU, the control board 300 drives the driving unit 200 to record / reproduce information on / from the optical disc D.

  The driving unit 200 may be connected to the portable computer 100 through a separate cable (not shown) without being inserted into the mounting unit 120. Also, the control board 300 may be connected to the PCMCIA slot 110 by a separate cable (not shown) without being inserted into the PCMCIA slot 110.

  As described above, if the control board 300 is manufactured separately from the drive unit 200, it is advantageous to make the drive unit 200 thinner. This is because the connection board 260 attached to the drive unit 200 only needs to perform a minimum function for connecting the drive unit 200, the control board 300, and the portable computer 100. This is because it is smaller than the control board (60 in FIG. 1).

  Recently, slim type optical disc drives tend to serve not only CD-ROM playback but also CD-RW recording / playback and DVD-ROM playback functions. In this case, many components are mounted on the control board in order to perform a composite function, and the thickness thereof is increased. As a result, the portable computer on which the portable computer is mounted becomes thick, and it is impossible to respond to the recent thinning of the portable computer. However, according to the slim type optical disc drive according to the present invention, the control board is separated from the drive unit and mounted in the PCMCIA slot, and the drive unit has only a connection board having a minimum function for connection to the control board. As long as it is provided, at least an increase in the thickness of the control board does not affect an increase in the thickness of the drive unit.

  In the case of the conventional slim type optical disc drive, even if there is a factor that can reduce the thickness of the product due to downsizing / thinning of the spindle motor, optical pickup, drive motor, etc., if the thickness of the control board cannot be reduced, the product The thickness of can not be reduced. However, according to the slim type optical disk drive according to the present invention, since the control board is separated from the drive unit, the thickness of the drive unit can be reduced immediately in such a case. Therefore, the portable computer can be made thinner.

  As described above, there are three types of PCMCIA slots, and the thickness of the control board can be reduced to a maximum of 10.5 mm. Furthermore, the control board only needs to be installed in the PCMCIA slot and does not necessarily have to be completely inserted into the slot. That is, in some cases, a part of the control board may be exposed outside the PCMCIA slot. Therefore, even if the slim type optical disk drive is multi-functional, it can be said that the size of the control board for accommodating the function is virtually unlimited.

  In the above-described embodiment, the case where the drive unit is designed to be built-in and is mounted on a portable computer has been described. However, the optical disk drive according to the present invention is not limited to this. Although not shown in the drawings, the drive unit may be an exterior type that is connected to the control board by a separate connection means (not shown) such as a connection cable without being attached to the portable computer. In this case, the thickness and size of the drive unit have no effect on the portable computer.

  The optical disk drive according to the present invention is used not only for a portable computer but also for a desktop computer provided with an interface device such as a USB port and a PCMCIA slot.

  The present invention is not limited to the above description and illustrations, and many variations and modifications can be made within the scope of the claims.

  The present invention can be applied to an optical disk drive mounted on a portable computer or a desktop computer.

It is the top view which showed the conventional slim type optical disk drive. 1 is a schematic perspective view showing an embodiment of an optical disk drive according to the present invention. FIG. 3 is a perspective view illustrating the drive unit illustrated in FIG. 2 in detail.

Explanation of symbols

DESCRIPTION OF SYMBOLS 100 Portable computer 110 PCMCIA slot 120 Optical disk drive mounting part 200 Drive unit 300 Control board

Claims (7)

A drive unit comprising: a spindle motor that rotates an optical disk; an optical pickup that accesses the optical disk; and a connection board that is connected to a computer;
An optical disc drive comprising: a control board separated from the drive unit and connected to the connection board through an interface device of the computer to control the drive unit.   The optical disk drive according to claim 1, wherein the interface device is a PCMCIA slot.   The optical disk drive according to claim 1, wherein the interface device is a USB.   The optical disk drive according to claim 1, wherein the drive unit is inserted into a mounting portion of the computer.   2. The optical disc drive according to claim 1, wherein the drive unit is installed outside the computer, and is connected to the computer by a cable that connects the mounting portion of the computer and the connection board to each other.   The optical disk drive according to claim 1, wherein the control board is directly inserted into the interface device. The optical disk drive according to claim 1, wherein the control board is connected to the interface device by a cable.

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